Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.addRepeatedField(com.google.protobuf.Descriptors.FieldDescriptor field,
java.lang.Object value) |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clear() |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearDetailedOptimalityCriteria() |
.operations_research.pdlp.TerminationCriteria.DetailedOptimalityCriteria detailed_optimality_criteria = 10;
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearEpsDualInfeasible() |
If the following three conditions hold we say we have obtained an
approximate primal ray, which is an approximate certificate of dual
infeasibility.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearEpsOptimalAbsolute() |
Deprecated.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearEpsOptimalRelative() |
Deprecated.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearEpsPrimalInfeasible() |
If the following two conditions hold we say that we have obtained an
approximate dual ray, which is an approximate certificate of primal
infeasibility.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearField(com.google.protobuf.Descriptors.FieldDescriptor field) |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearIterationLimit() |
If termination_reason = TERMINATION_REASON_ITERATION_LIMIT then the solver
has taken at least iterations_limit iterations.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearKktMatrixPassLimit() |
If termination_reason = TERMINATION_REASON_KKT_MATRIX_PASS_LIMIT then
cumulative_kkt_matrix_passes is at least kkt_pass_limit.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearOneof(com.google.protobuf.Descriptors.OneofDescriptor oneof) |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearOptimalityCriteria() |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearOptimalityNorm() |
The norm that we are measuring the optimality criteria in.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearSimpleOptimalityCriteria() |
.operations_research.pdlp.TerminationCriteria.SimpleOptimalityCriteria simple_optimality_criteria = 9;
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clearTimeSecLimit() |
If termination_reason = TERMINATION_REASON_TIME_LIMIT then the solver has
taken at least time_sec_limit time.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.clone() |
|
Solvers.TerminationCriteria.Builder |
Solvers.PrimalDualHybridGradientParams.Builder.getTerminationCriteriaBuilder() |
optional .operations_research.pdlp.TerminationCriteria termination_criteria = 1;
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.mergeDetailedOptimalityCriteria(Solvers.TerminationCriteria.DetailedOptimalityCriteria value) |
.operations_research.pdlp.TerminationCriteria.DetailedOptimalityCriteria detailed_optimality_criteria = 10;
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.mergeFrom(com.google.protobuf.CodedInputStream input,
com.google.protobuf.ExtensionRegistryLite extensionRegistry) |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.mergeFrom(com.google.protobuf.Message other) |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.mergeFrom(Solvers.TerminationCriteria other) |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.mergeSimpleOptimalityCriteria(Solvers.TerminationCriteria.SimpleOptimalityCriteria value) |
.operations_research.pdlp.TerminationCriteria.SimpleOptimalityCriteria simple_optimality_criteria = 9;
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.mergeUnknownFields(com.google.protobuf.UnknownFieldSet unknownFields) |
|
static Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.newBuilder() |
|
static Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.newBuilder(Solvers.TerminationCriteria prototype) |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.newBuilderForType() |
|
protected Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.newBuilderForType(com.google.protobuf.GeneratedMessageV3.BuilderParent parent) |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setDetailedOptimalityCriteria(Solvers.TerminationCriteria.DetailedOptimalityCriteria value) |
.operations_research.pdlp.TerminationCriteria.DetailedOptimalityCriteria detailed_optimality_criteria = 10;
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setDetailedOptimalityCriteria(Solvers.TerminationCriteria.DetailedOptimalityCriteria.Builder builderForValue) |
.operations_research.pdlp.TerminationCriteria.DetailedOptimalityCriteria detailed_optimality_criteria = 10;
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setEpsDualInfeasible(double value) |
If the following three conditions hold we say we have obtained an
approximate primal ray, which is an approximate certificate of dual
infeasibility.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setEpsOptimalAbsolute(double value) |
Deprecated.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setEpsOptimalRelative(double value) |
Deprecated.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setEpsPrimalInfeasible(double value) |
If the following two conditions hold we say that we have obtained an
approximate dual ray, which is an approximate certificate of primal
infeasibility.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setField(com.google.protobuf.Descriptors.FieldDescriptor field,
java.lang.Object value) |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setIterationLimit(int value) |
If termination_reason = TERMINATION_REASON_ITERATION_LIMIT then the solver
has taken at least iterations_limit iterations.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setKktMatrixPassLimit(double value) |
If termination_reason = TERMINATION_REASON_KKT_MATRIX_PASS_LIMIT then
cumulative_kkt_matrix_passes is at least kkt_pass_limit.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setOptimalityNorm(Solvers.OptimalityNorm value) |
The norm that we are measuring the optimality criteria in.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setRepeatedField(com.google.protobuf.Descriptors.FieldDescriptor field,
int index,
java.lang.Object value) |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setSimpleOptimalityCriteria(Solvers.TerminationCriteria.SimpleOptimalityCriteria value) |
.operations_research.pdlp.TerminationCriteria.SimpleOptimalityCriteria simple_optimality_criteria = 9;
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setSimpleOptimalityCriteria(Solvers.TerminationCriteria.SimpleOptimalityCriteria.Builder builderForValue) |
.operations_research.pdlp.TerminationCriteria.SimpleOptimalityCriteria simple_optimality_criteria = 9;
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setTimeSecLimit(double value) |
If termination_reason = TERMINATION_REASON_TIME_LIMIT then the solver has
taken at least time_sec_limit time.
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.Builder.setUnknownFields(com.google.protobuf.UnknownFieldSet unknownFields) |
|
Solvers.TerminationCriteria.Builder |
Solvers.TerminationCriteria.toBuilder() |
|